603-32-7Relevant articles and documents
-
Evans,Warhurst
, p. 189 (1948)
-
-
Parkes,Clarke,Thewlis
, p. 429 (1947)
-
DEOXYGENATION OF TRIPHENYLARSINE OXIDE TO TRIPHENYLARSINE BY LOW VALENT TITANIUM
Xing, Yi De,Hou, Xue Long,Huang, Nai Zheng
, p. 4727 - 4728 (1981)
Low valent titanium was used to deoxygenate triphenylarsine oxide to triphenylarsine.
Fundamental Study on Arsenic(III) Halides (AsX3; X = Br, I) toward the Construction of C3-Symmetrical Monodentate Arsenic Ligands
Tanaka, Susumu,Konishi, Masafumi,Imoto, Hiroaki,Nakamura, Yuma,Ishida, Masatoshi,Furuta, Hiroyuki,Naka, Kensuke
supporting information, p. 9587 - 9593 (2020/07/02)
Arsenic ligands have attracted considerable attention in coordination chemistry. Arsenic(III) halides are the most important starting materials in the preparation of monodentate arsenic ligands. In this work, we optimized the synthetic methodologies of arsenic(III) halides (AsX3; X = Br, I) and examined the difference of their physical properties such as solubility to organic solvent and reactivity to nucleophiles. In addition, a wide variety of monodentate arsenic ligands were prepared with the obtained AsX3. Finally, the obtained monodentate arsenic ligands were utilized for copper-free Sonogashira cross-coupling reaction in the reaction system with porphyrin. The results showed that monodentate arsenic ligands have higher catalytic activity compared with triphenylphosphine because of the difference of the electronic features of lone pairs between arsenic and phosphorus atoms.
Tail-to-tail dimerization of methyl acrylate in the presence of triphenylarsine ruthenium complexes
Behnia, Ava,Tamaddoni Jahromi, Bahareh,Nemati Kharat, Ali
, p. 3018 - 3025 (2015/10/20)
Dimerization of methyl acrylate by ruthenium-based homogenous catalysts. The effect of the addition of supporting ligands on selectivity was studied. Conversion and selectivity were significantly affected by using triphenyl arsine. Possible reaction mechanism to achieve the tail to tail product was discussed. Catalytic dimerization of methyl acrylate by homogenous ruthenium catalysts was investigated. The effect of the addition of acidic additives, supporting ligands, polymerization inhibitor, and reaction conditions on the selectivity of dimerization was studied, and possible reaction mechanism was discussed. Conversion and selectivity were significantly affected by using triphenylarsine as supporting ligand. Under mild conditions, conversion up to 98% with good selectivity to tail-to-tail product was achieved.